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vcmi/client/CAnimation.cpp

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#include <iostream>
#include <sstream>
#include <boost/foreach.hpp>
#include <boost/bind.hpp>
#include "SDL.h"
#include "SDL_image.h"
#include "CBitmapHandler.h"
#include "CAnimation.h"
#include "SDL_Extensions.h"
#include "../hch/CLodHandler.h"
/*
* CAnimation.cpp, part of VCMI engine
*
* Authors: listed in file AUTHORS in main folder
*
* License: GNU General Public License v2.0 or later
* Full text of license available in license.txt file, in main folder
*
*/
extern DLL_EXPORT CLodHandler *spriteh;
/*************************************************************************
* DefFile, class used for def loading *
*************************************************************************/
bool CDefFile::haveFrame(size_t frame, size_t group) const
{
if (offset.size() > group)
if (offset[group].size() > frame)
return true;
return false;
}
SDL_Surface * CDefFile::loadFrame(size_t frame, size_t group) const
{
if (haveFrame(frame, group))
return loadFrame(( unsigned char * )data+offset[group][frame], colors);
return NULL;
}
SDL_Surface * CDefFile::loadFrame (const unsigned char * FDef, const BMPPalette * palette)
{
SDL_Surface * ret=NULL;
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unsigned int DefFormat, // format in which pixel data of sprite is encoded
FullHeight,FullWidth, // full width and height of sprite including borders
SpriteWidth, SpriteHeight, // width and height of encoded sprite
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TotalRowLength,
RowAdd, add,
BaseOffset;
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int LeftMargin, RightMargin, // position of 1st stored in sprite pixel on surface
TopMargin, BottomMargin;
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SSpriteDef sd = * reinterpret_cast<const SSpriteDef *>(FDef);
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DefFormat = SDL_SwapLE32(sd.defType2);
FullWidth = SDL_SwapLE32(sd.FullWidth);
FullHeight = SDL_SwapLE32(sd.FullHeight);
SpriteWidth = SDL_SwapLE32(sd.SpriteWidth);
SpriteHeight = SDL_SwapLE32(sd.SpriteHeight);
LeftMargin = SDL_SwapLE32(sd.LeftMargin);
TopMargin = SDL_SwapLE32(sd.TopMargin);
RightMargin = FullWidth - SpriteWidth - LeftMargin;
BottomMargin = FullHeight - SpriteHeight - TopMargin;
if (LeftMargin<0)
SpriteWidth+=LeftMargin;
if (RightMargin<0)
SpriteWidth+=RightMargin;
// Note: this looks bogus because we allocate only FullWidth, not FullWidth+add
add = 4 - FullWidth%4;
if (add==4)
add=0;
ret = SDL_CreateRGBSurface(SDL_SWSURFACE, FullWidth, FullHeight, 8, 0, 0, 0, 0);
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BaseOffset = sizeof(SSpriteDef);
int BaseOffsetor = BaseOffset;
for (int i=0; i<256; ++i)
{
SDL_Color pr;
pr.r = palette[i].R;
pr.g = palette[i].G;
pr.b = palette[i].B;
pr.unused = palette[i].F;
(*(ret->format->palette->colors+i))=pr;
}
// If there's a margin anywhere, just blank out the whole surface.
if (TopMargin > 0 || BottomMargin > 0 || LeftMargin > 0 || RightMargin > 0)
{
memset( reinterpret_cast<char*>(ret->pixels), 0, FullHeight*FullWidth);
}
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int current=0;//current pixel on output surface
// Skip top margin
if (TopMargin > 0)
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current += TopMargin*(FullWidth+add);
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switch (DefFormat)
{
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//pixel data is not compressed, copy each line to surface
case 0:
{
for (unsigned int i=0; i<SpriteHeight; i++)
{
if (LeftMargin>0)
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current += LeftMargin;
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memcpy(reinterpret_cast<char*>(ret->pixels)+current, &FDef[BaseOffset], SpriteWidth);
current += SpriteWidth;
BaseOffset += SpriteWidth;
if (RightMargin>0)
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current += RightMargin;
}
}
break;
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// RLE encoding:
// read offset of pixel data of each line
// for each line
// read type and size
// if type is 0xff
// no encoding, copy to output
// else
// RLE: set size pixels to type
// do this until all line is parsed
case 1:
{
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//for each line we have offset of pixel data
const unsigned int * RWEntriesLoc = reinterpret_cast<const unsigned int *>(FDef+BaseOffset);
BaseOffset += sizeof(int) * SpriteHeight;
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for (unsigned int i=0; i<SpriteHeight; i++)
{
BaseOffset=BaseOffsetor + SDL_SwapLE32(read_unaligned_u32(RWEntriesLoc + i));
if (LeftMargin>0)
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current += LeftMargin;
TotalRowLength=0;
do
{
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unsigned char SegmentType=FDef[BaseOffset++];
unsigned int SegmentLength=FDef[BaseOffset++] + 1;
if (SegmentType==0xFF)
{
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memcpy(reinterpret_cast<char*>(ret->pixels)+current, FDef + BaseOffset, SegmentLength);
BaseOffset+=SegmentLength;
}
else
{
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memset(reinterpret_cast<char*>(ret->pixels)+current, SegmentType, SegmentLength);
}
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current += SegmentLength;
TotalRowLength += SegmentLength;
}
while (TotalRowLength<SpriteWidth);
RowAdd=SpriteWidth-TotalRowLength;
if (RightMargin>0)
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current += RightMargin;
if (add>0)
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current += add+RowAdd;
}
}
break;
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// Something like RLE
// read base offset
// for each line
// read type, set code and value
// if code is 7
// copy value pixels
// else
// set value pixels to code
case 2:
{
BaseOffset = BaseOffsetor + SDL_SwapLE16(read_unaligned_u16(FDef + BaseOffsetor));
for (unsigned int i=0; i<SpriteHeight; i++)
{
if (LeftMargin>0)
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current += LeftMargin;
TotalRowLength=0;
do
{
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unsigned char SegmentType=FDef[BaseOffset++];
unsigned char code = SegmentType / 32;
unsigned char value = (SegmentType & 31) + 1;
if (code==7)
{
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memcpy(reinterpret_cast<char*>(ret->pixels)+current, &FDef[BaseOffset], value);
current += value;
BaseOffset += value;
}
else
{
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memset(reinterpret_cast<char*>(ret->pixels)+current, code, value);
current += value;
}
TotalRowLength+=value;
}
while (TotalRowLength<SpriteWidth);
if (RightMargin>0)
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current += RightMargin;
RowAdd=SpriteWidth-TotalRowLength;
if (add>0)
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current += add+RowAdd;
}
}
break;
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//combo of 1st and 2nd:
// offset for each line
// code and value combined in 1 byte
case 3:
{
for (unsigned int i=0; i<SpriteHeight; i++)
{
BaseOffset = BaseOffsetor + SDL_SwapLE16(read_unaligned_u16(FDef + BaseOffsetor+i*2*(SpriteWidth/32)));
if (LeftMargin>0)
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current += LeftMargin;
TotalRowLength=0;
do
{
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unsigned char SegmentType=FDef[BaseOffset++];
unsigned char code = SegmentType / 32;
unsigned char value = (SegmentType & 31) + 1;
int len = std::min<unsigned int>(value, SpriteWidth - TotalRowLength) - std::max(0, -LeftMargin);
amax(len, 0);
if (code==7)
{
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memcpy((ui8*)ret->pixels + current, FDef + BaseOffset, len);
current += len;
BaseOffset += len;
}
else
{
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memset((ui8*)ret->pixels + current, code, len);
current += len;
}
TotalRowLength+=( LeftMargin>=0 ? value : value+LeftMargin );
}
while (TotalRowLength<SpriteWidth);
if (RightMargin>0)
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current += RightMargin;
RowAdd=SpriteWidth-TotalRowLength;
if (add>0)
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current += add+RowAdd;
}
}
break;
default:
throw std::string("Unknown sprite format.");
break;
}
SDL_Color *col = ret->format->palette->colors;
Uint32 keycol = SDL_MapRGBA(ret->format, col[0].r, col[0].b, col[0].g, col[0].unused);
SDL_SetColorKey(ret, SDL_SRCCOLORKEY, keycol);
return ret;
};
BMPPalette * CDefFile::getPalette()
{
BMPPalette * ret = new BMPPalette[256];
memcpy(ret, colors, sizeof(BMPPalette)*256);
return ret;
}
CDefFile::CDefFile(std::string Name):data(NULL),colors(NULL)
{
static SDL_Color H3Palette[8] = {{ 0, 0, 0, 255},
{ 0, 0, 0, 192},
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/* 5 shadow colors */ { 0, 0, 0, 128},
{ 0, 0, 0, 64},
{ 0, 0, 0, 32},
{255, 255, 0, 255},
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/* 3 selection highlight color */{255, 255, 0, 255},
{255, 255, 0, 255}};
data = spriteh->giveFile(Name, FILE_ANIMATION, &datasize);
if (!data)
{
tlog0<<"Error: file "<< Name <<" not found\n";
return;
}
colors = new BMPPalette[256];
int it = 0;
type = readNormalNr(data, it); it+=4;
//int width = readNormalNr(data, it); it+=4;//not used
//int height = readNormalNr(data, it); it+=4;
it+=8;
unsigned int totalBlocks = readNormalNr(data, it);
it+=4;
for (unsigned int i= 0; i<256; i++)
{
colors[i].R = data[it++];
colors[i].G = data[it++];
colors[i].B = data[it++];
colors[i].F = 0;
}
memcpy(colors, H3Palette, (type == 66)? 32:20);//initialize shadow\selection colors
offList.insert(datasize);
for (unsigned int i=0; i<totalBlocks; i++)
{
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size_t blockID = readNormalNr(data, it);
it+=4;
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size_t totalEntries = readNormalNr(data, it);
it+=12;
//8 unknown bytes - skipping
//13 bytes for name of every frame in this block - not used, skipping
it+= 13 * totalEntries;
offset.resize(std::max(blockID+1, offset.size()));
for (unsigned int j=0; j<totalEntries; j++)
{
size_t currOffset = readNormalNr(data, it);
offset[blockID].push_back(currOffset);
offList.insert(currOffset);
it += 4;
}
}
}
unsigned char * CDefFile::getFrame(size_t frame, size_t group) const
{
if (offset.size() > group)
{
if (offset[group].size() > frame)
{
size_t offs = offset[group][frame];
std::set<size_t>::iterator it = offList.find(offs);
if (it == offList.end() || ++it == offList.end())
tlog0<<"Error: offset not found!\n";
size_t size = *it - offs;
unsigned char * ret = new unsigned char[size];
memcpy(ret, data+offs, size);
return ret;
}
}
return NULL;
}
CDefFile::~CDefFile()
{
offset.clear();
offList.clear();
delete[] data;
delete[] colors;
}
bool CDefFile::loaded() const
{
return data != NULL;
}
/*************************************************************************
* CAnimation for animations handling, can load part of file if needed *
*************************************************************************/
CAnimation::AnimEntry::AnimEntry():
surf(NULL),
source(0),
refCount(0),
data(NULL),
dataSize(0)
{
}
bool CAnimation::loadFrame(CDefFile * file, size_t frame, size_t group)
{
if (groupSize(group) <= frame)
{
printError(frame, group, "LoadFrame");
return false;
}
AnimEntry &e = entries[group][frame];
if (e.surf || e.data)
{
e.refCount++;
return true;
}
if (e.source & 6)//load frame with SDL_Image
{
int size;
unsigned char * pic = NULL;
std::ostringstream str;
if ( e.source & 2 )
str << name << '#' << (group+1) << '#' << (frame+1); // file#12#34.*
else
str << name << '#' << (frame+1);//file#34.*
pic = spriteh->giveFile(str.str(), FILE_GRAPHICS, &size);
if (pic)
{
if (compressed)
{
e.data = pic;
e.dataSize = size;
}
else
{
e.surf = IMG_Load_RW( SDL_RWFromMem((void*)pic, size), 1);
delete [] pic;
}
}
}
else if (file && e.source & 1)//try to get image from def
{
if (compressed)
e.data = file->getFrame(frame, group);
else
e.surf = file->loadFrame(frame, group);
}
if (!(e.surf || e.data))
return false;//failed to load
e.refCount++;
return true;
}
bool CAnimation::unloadFrame(size_t frame, size_t group)
{
if (groupSize(group) > frame && entries[group][frame].refCount)
{
AnimEntry &e = entries[group][frame];
if (--e.refCount)//not last ref
return true;
SDL_FreeSurface(e.surf);
delete [] e.data;
e.surf = NULL;
e.data = NULL;
return true;
}
return false;
}
void CAnimation::decompress(AnimEntry &entry)
{
if (entry.source & 6)//load frame with SDL_Image
entry.surf = IMG_Load_RW( SDL_RWFromMem((void*)entry.data, entry.dataSize), 1);
else if (entry.source & 1)
entry.surf = CDefFile::loadFrame(entry.data, defPalette);
}
void CAnimation::init(CDefFile * file)
{
if (compressed)
defPalette = file->getPalette();
for (size_t group = 0; ; group++)
{
std::vector<AnimEntry> toAdd;
for (size_t frame = 0; ; frame++)
{
unsigned char res=0;
{
std::ostringstream str;
str << name << '#' << (group+1) << '#' << (frame+1); // format: file#12#34.*
if (spriteh->haveFile(str.str()))
res |= 2;
}
if (group == 0)
{
std::ostringstream str;
str << name << '#' << (frame+1);// format: file#34.*
if ( spriteh->haveFile(str.str()))
res |=4;
}
if (file)//we have def too. try to get image from def
{
if (file->haveFrame(frame, group))
res |=1;
}
if (res)
{
toAdd.push_back(AnimEntry());
toAdd.back().source = res;
}
else
break;
}
if (!toAdd.empty())
{
entries.push_back(toAdd);
}
else
{
entries.resize(entries.size()+1);
if (group > 21)
break;//FIXME: crude workaround: if some groups are not present
//(common for creatures) parser will exit before reaching them
}
}
}
CDefFile * CAnimation::getFile() const
{
CDefFile * file = new CDefFile(name);
if (!file->loaded())
{
delete file;
return NULL;
}
return file;
}
void CAnimation::printError(size_t frame, size_t group, std::string type) const
{
tlog0 << type <<" error: Request for frame not present in CAnimation!\n"
<<"\tFile name: "<<name<<" Group: "<<group<<" Frame: "<<frame<<"\n";
}
CAnimation::CAnimation(std::string Name, bool Compressed):
name(Name),
compressed(Compressed),
defPalette(NULL)
{
std::transform(name.begin(), name.end(), name.begin(), (int(*)(int))toupper);
int dotPos = name.find_last_of('.');
if ( dotPos != -1 )
name.erase(dotPos);
CDefFile * file = getFile();
init(file);
delete file;
}
CAnimation::CAnimation():
name(""),
compressed(false),
defPalette(NULL)
{
}
CAnimation::~CAnimation()
{
delete [] defPalette;
for (size_t i = 0; i < entries.size(); i++)
for (size_t j = 0; j < entries.at(i).size(); j++)
{
delete [] entries[i][j].data;
if (entries[i][j].surf)
SDL_FreeSurface(entries[i][j].surf);
}
}
void CAnimation::add(SDL_Surface * surf, bool shared, size_t group)
{
if (!surf)
return;
if (entries.size() <= group)
entries.resize(group+1);
if (shared)
surf->refcount++;
entries[group].push_back(AnimEntry());
entries[group].back().refCount = 1;
entries[group].back().surf = surf;
}
void CAnimation::removeDecompressed(size_t frame, size_t group)
{
AnimEntry &e = entries[group][frame];
if (e.surf && e.data)
{
SDL_FreeSurface(e.surf);
e.surf = NULL;
}
}
SDL_Surface * CAnimation::image(size_t frame)
{
size_t group=0;
while (group<entries.size() && frame > entries[group].size())
frame -= entries[group].size();
if (group <entries.size() && frame < entries[group].size())
return image(frame, group);
return NULL;
}
SDL_Surface * CAnimation::image(size_t frame, size_t group)
{
if ( groupSize(group) > frame )
{
AnimEntry &e = entries[group][frame];
if (!e.surf && e.data)
decompress(e);
return e.surf;
}
printError(frame, group, "GetImage");
return NULL;
}
void CAnimation::clear()
{
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unload();
entries.clear();
}
void CAnimation::load()
{
CDefFile * file = getFile();
for (size_t group = 0; group<entries.size(); group++)
for (size_t frame = 0; frame<entries[group].size(); frame++)
loadFrame(file, frame, group);
delete file;
}
void CAnimation::unload()
{
for (size_t group = 0; group<entries.size(); group++)
for (size_t frame = 0; frame<entries[group].size(); frame++)
unloadFrame(frame, group);
}
void CAnimation::loadGroup(size_t group)
{
CDefFile * file = getFile();
for (size_t frame = 0; frame<groupSize(group); frame++)
loadFrame(file, frame, group);
delete file;
}
void CAnimation::unloadGroup(size_t group)
{
for (size_t frame = 0; frame<groupSize(group); frame++)
unloadFrame(frame, group);
}
void CAnimation::load(size_t frame, size_t group)
{
CDefFile * file = getFile();
loadFrame(file, frame, group);
delete file;
}
void CAnimation::unload(size_t frame, size_t group)
{
unloadFrame(frame, group);
}
void CAnimation::load(std::vector <std::pair <size_t, size_t> > frames)
{
CDefFile * file = getFile();
for (size_t i=0; i<frames.size(); i++)
loadFrame(file, frames[i].second, frames[i].first);
delete file;
}
void CAnimation::unload(std::vector <std::pair <size_t, size_t> > frames)
{
for (size_t i=0; i<frames.size(); i++)
unloadFrame(frames[i].second, frames[i].first);
}
void CAnimation::fixButtonPos()
{
if ( groupSize(0) > 1 )
std::swap(entries[0][1].surf, entries[0][0].surf);
}
size_t CAnimation::groupSize(size_t group) const
{
if (entries.size() > group)
return entries[group].size();
return 0;
}
size_t CAnimation::size() const
{
size_t ret=0;
for (size_t i=0; i<entries.size(); i++)
{
ret += entries[i].size();
}
return ret;
}
/*
CAnimImage::CAnimImage(int x, int y, std::string name, size_t Frame, size_t Group):
anim(name),
frame(Frame),
group(Group)
{
anim.load(frame, group);
pos.w = anim.image(frame, group)->w;
pos.h = anim.image(frame, group)->h;
}
CAnimImage::~CAnimImage()
{
}
void CAnimImage::show(SDL_Surface *to)
{
blitAtLoc(anim.image(frame, group), 0,0, to);
}
void CAnimImage::setFrame(size_t Frame, size_t Group)
{
if (frame == Frame && group==Group)
return;
if (anim.groupSize(Group) > Frame)
{
anim.unload(frame, group);
anim.load(Frame, Group);
frame = Frame;
group = Group;
}
}
*/
CShowableAnim::CShowableAnim(int x, int y, std::string name, unsigned char Flags, unsigned int Delay, size_t Group):
anim(name, Flags),
group(Group),
frame(0),
first(0),
flags(Flags),
frameDelay(Delay),
value(0),
xOffset(0),
yOffset(0)
{
pos.x+=x;
pos.y+=y;
anim.loadGroup(group);
last = anim.groupSize(group);
pos.w = anim.image(0, group)->w;
pos.h = anim.image(0, group)->h;
}
CShowableAnim::~CShowableAnim()
{
}
bool CShowableAnim::set(size_t Group, size_t from, size_t to)
{
size_t max = anim.groupSize(Group);
if (max>to)
max = to;
if (max < from || max == 0)
return false;
anim.load(Group);
anim.unload(group);
group = Group;
frame = first = from;
last = max;
value = 0;
return true;
}
bool CShowableAnim::set(size_t Group)
{
if (anim.groupSize(Group)== 0)
return false;
if (group != Group)
{
anim.loadGroup(Group);
anim.unloadGroup(group);
first = 0;
group = Group;
last = anim.groupSize(Group);
}
frame = value = 0;
return true;
}
void CShowableAnim::reset()
{
value = 0;
frame = first;
if (callback)
callback();
}
void CShowableAnim::movePic( int byX, int byY)
{
xOffset += byX;
yOffset += byY;
}
void CShowableAnim::show(SDL_Surface *to)
{
if ( flags & FLAG_BASE && frame != first)
blitImage(anim.image(first, group), to);
blitImage(anim.image(frame, group), to);
if ( ++value == frameDelay )
{
value = 0;
if (flags & FLAG_COMPRESSED)
anim.removeDecompressed(frame, group);
if ( ++frame == last)
reset();
}
}
void CShowableAnim::showAll(SDL_Surface *to)
{
show(to);
}
void CShowableAnim::blitImage(SDL_Surface *what, SDL_Surface *to)
{
assert(what);
//TODO: SDL RLE?
SDL_Rect dstRect=genRect(pos.h, pos.w, pos.x, pos.y);
SDL_Rect srcRect;
srcRect.x = xOffset;
srcRect.y = yOffset;
srcRect.w = pos.w;
srcRect.h = pos.h;
/*if ( flags & FLAG_ROTATED )
{} //TODO: rotate surface
else */
if (flags & FLAG_ALPHA && what->format->BytesPerPixel == 1) //alpha on 8-bit surf - use custom blitter
CSDL_Ext::blit8bppAlphaTo24bpp(what, &srcRect, to, &dstRect);
else
CSDL_Ext::blitSurface(what, &srcRect, to, &dstRect);
}
void CShowableAnim::rotate(bool on)
{
if (on)
flags |= FLAG_ROTATED;
else
flags &= ~FLAG_ROTATED;
}
CCreatureAnim::CCreatureAnim(int x, int y, std::string name, unsigned char flags, EAnimType type):
CShowableAnim(x,y,name,flags,3,type)
{
if (flags & FLAG_PREVIEW)
callback = boost::bind(&CCreatureAnim::loopPreview,this);
};
void CCreatureAnim::loopPreview()
{
std::vector<EAnimType> available;
if (anim.groupSize(ANIM_HOLDING))
available.push_back(ANIM_HOLDING);
if (anim.groupSize(ANIM_HITTED))
available.push_back(ANIM_HITTED);
if (anim.groupSize(ANIM_DEFENCE))
available.push_back(ANIM_DEFENCE);
if (anim.groupSize(ANIM_ATTACK_FRONT))
available.push_back(ANIM_ATTACK_FRONT);
if (anim.groupSize(ANIM_CAST_FRONT))
available.push_back(ANIM_CAST_FRONT);
size_t rnd = rand()%(available.size()*2);
if (rnd >= available.size())
{
if ( anim.groupSize(ANIM_MOVING) == 0 )//no moving animation present
addLast( ANIM_HOLDING );
else
addLast( ANIM_MOVING ) ;
}
else
addLast(available[rnd]);
}
void CCreatureAnim::addLast(EAnimType newType)
{
if (type != ANIM_MOVING && newType == ANIM_MOVING)//starting moving - play init sequence
{
queue.push( ANIM_MOVE_START );
}
else if (type == ANIM_MOVING && newType != ANIM_MOVING )//previous anim was moving - finish it
{
queue.push( ANIM_MOVE_END);
}
if (newType == ANIM_TURN_L || newType == ANIM_TURN_R)
queue.push(newType);
queue.push(newType);
}
void CCreatureAnim::reset()
{
//if we are in the middle of rotation - set flag
if (type == ANIM_TURN_L && !queue.empty() && queue.front() == ANIM_TURN_L)
flags |= FLAG_ROTATED;
if (type == ANIM_TURN_R && !queue.empty() && queue.front() == ANIM_TURN_R)
flags &= ~FLAG_ROTATED;
while (!queue.empty())//FIXME: remove dublication
{
EAnimType at = queue.front();
queue.pop();
if (set(at))
return;
}
if (callback)
callback();
while (!queue.empty())
{
EAnimType at = queue.front();
queue.pop();
if (set(at))
return;
}
tlog0<<"Warning: next sequence is not found for animation!\n";
}
void CCreatureAnim::clearAndSet(EAnimType type)
{
while (!queue.empty())
queue.pop();
set(type);
}